Abstract
Ti‒26Al‒21Nb (at.%) samples with the orthorhombic O structure, deformed at various temperatures, have been analysed in order to determine the sensitivity of their microstructures to the deformation temperature. The activation of [100] and ½ < 110] dislocations, and interactions between them, have been observed from room temperature to 800°C. At high temperature, the activation of dislocations with [001] component Burgers vectors has also been identified. The poor ductility in tension at room temperature is ascribed to an insufficient number of slip systems to accommodate the deformation. Attention is paid to the splitting modes and to the energies of the various planar defects involved in the dissociations.